DE741637C - Method of assembling submersible electrical machines with vertical shaft - Google Patents

Description

Method of assembling submersible electrical machines with vertical Shaft Submersible electrical machines with vertical shaft, especially those with As is well known, pumps of assembled submersible motors are often used in narrow boreholes in which they work for a long time under difficult operating conditions should. The machines therefore often have to be unskilled at the points of use Personnel disassembled and reassembled. Your structure must therefore be as simple as possible. This requirement can be met with the previously known types the submersible motors are not complied with, as the disassembly and assembly as well as eliminating any malfunctions can only be carried out with difficulty.

This also applies to such a known type of submersible motor, in which the end shield forming the upper end of the motor housing on a attached to the motor housing intermediate ring and directly from the power supply cable connected to the stator winding in a liquid-tight manner which is also passed through an axial bore in the intermediate ring. The leadership of the cable through the end shield and intermediate ring hinders the assembly of the Motor especially when »the intermediate ring is inserted into an internal thread of a thin-walled steel tube ordering motor housing must be screwed in while the cable is already tightly connected to the stator winding.

According to the invention, the above-mentioned disadvantages of known designs completely avoided that the cable for the duration of Screwing the intermediate ring into the machine housing in between the intermediate ring and the Shaft formed annulus is pushed into what by a radial slot of the intermediate ring is made possible.

As a result, the cable prevents its tight connection to the Stator winding Jas screwing the intermediate ring into the motor housing in none Way, because when it is pushed into the inner annulus, it interferes with this screwing in not. After screwing the intermediate ring into the motor housing, the end shield can then in a known manner, e.g. B. by means of axially parallel screws on the intermediate ring be attached. The end shield is given at the same time in a known manner centering through the intermediate ring. So the assembly of the engine is tremendous easily and without difficulty, even by inexperienced workers. It can therefore repairs can easily be carried out on the spot.

An embodiment of the invention is shown in the drawing, namely Fig. i shows a longitudinal section through the upper end of an electrical Submersible motor, with vertical shaft and Fig. 2 a partial view of the intermediate ring in the direction of arrow A, while in Fig. 3 to 6 the assembly is shown.

The vertical shaft i of the submersible motor is in a bearing plate 5 of the engine. The bearing shield 5 is by means of axial screws 7 on one Intermediate ring 6 attached, which is in an internal thread of a steel pipe Motor housing 8 is screwed. The screws 7 are used in a known manner at the same time for fixing the pump assembled with the motor. The end shield 5 is provided with a hole 9, which is used to pass the cable io. In these Bore 9 is a sleeve io which encloses the cable io. The intermediate ring 6 is stiffened internally by radial ribs 12, the inner ends of which by an annular, web 13 lying concentric to the shaft i are held together. This bridge serves for centering the bearing housing .I of the end shield and is inside for this purpose turned off. In the intermediate ring 6 is a radial slot i-. appropriate, the Gien annular web 13 is omitted. The annular web 13 of the intermediate ring 6 closes with the shaft i an annular space which is dimensioned so large that during the screwing in of the intermediate ring in the motor housing, the cable io must be pushed into this annular space can. The inside of the engine is filled with pure water in a known manner, the also lubricates the bearing in a known manner.

The installation of the bearing housing will be explained in more detail with reference to Figs. 3 to 6. Fig. 3 shows the upper end of the submersible motor before the installation of the intermediate ring 6. Irma's cable is already connected to the stator winding and connected to it in a known manner in a liquid-tight manner. The rotor rotor, not shown, with its shaft i has also already been used. As Figure 4 shows, when the intermediate ring 6 is screwed in, the cable is pushed radially inward into the annular space formed between the annular web 13 and the motor shaft 1, so that the intermediate ring 6 is unhindered by the cable can be screwed in. Fig. 5 shows the intermediate ring 6 in its final position. The cable is then pushed radially through the slot 1, 4 into the final position shown in dotted lines. now the bearing housing can a. containing end shield 5 are inserted axially and brought into its end position in which the bearing housing .I is centered by the annular web 13 of the intermediate ring 6. The end shield is then attached to the intermediate ring by screw '] 7.

In a corresponding manner, the bearing plate and intermediate ring can also be removed without loosening the cable.

Claims (1)

PATENT CLAIM: Method for assembling submersible electrical Machines with a vertical shaft, the top end shield of which is supported by an intermediate ring is connected to the machine housing and together with the intermediate ring of the power supply cable is penetrated, characterized in that it is already connected to the stator winding Liquid-tight connected cables (OK) for the duration of the screwing in of the Intermediate ring (6) in the machine housing (8), before attaching the end shield, pushed into the annular space formed between the intermediate ring (6) and the shaft (i) is made possible by a radial slot (1.:1) in the intermediate ring (6) will.